200916917 九、發明說明: 【發明所屬之技術領域】 本發明係關於液晶顯示裝置之薄型化。 【先前技術】200916917 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to thinning of a liquid crystal display device. [Prior Art]
作為先前例之液晶顯示裝置,係如專利文獻1 (特開 2〇05-347〇62號公報)記載,其揭示一種如下之液晶顯示裝 置’即’該液晶顯示裝置具有顯示圖像之液晶面板PNL, 及配置於該液晶面板PNL之背面,且向液晶面板PNL射出 白色光之照明裝置BL ’其中,照明裝置BL具有螢光管 CFL、配置於該螢光管CFL之背面且讓源自螢光管CFL之 白色光加以擴散並反射之反射部件REF、及配置於螢光管 CFL之正面且將源自螢光管cfl之白色光加以擴散並穿透 之擴散板DEP。 [專利文獻1]特開20〇5_347062號公報 【發明内容】 [發明所欲解決之問題] 上述之先剛的液晶顯不裝置,由於擴散板係藉由螢光管 之發熱而熱膨脹,故距離螢光管較近之面的熱膨脹大於距 離螢光管較遠之面的熱膨脹,導致擴散 而變形。-旦擴散板向榮光管側凸起而變形,為謀求液: 顯不裝置之薄型化而讓由反射部件至蝥光管之高度尺寸, :二:抑制亮斑之最小的擴散距離時,由於擴散距離小於 Π:?離’故產生營光管之發光部被視作為亮斑的缺 陷。特別疋由於符合最小擴散距離,上述高度尺寸越小, 132165.doc 200916917 擴散距離之偏差對應的出射光之均-性的感度則 因此即便擴散板向榮光管側僅有微小凸起而變形, 亦無法確保源自勞光管之出射光的均一性,而產生勞光管 之發光部被視作為亮斑之情形。 例如’最小擴散距離為10咖以下,當將2〇 _左右之 擴散距離設為10 mm以下時,擴散板將向螢光管側凸起變 P便僅產生1 mm以下的應變’亦無法確保源自螢光管A liquid crystal display device of the prior art is disclosed in Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. PNL, and an illumination device BL' disposed on the back surface of the liquid crystal panel PNL and emitting white light to the liquid crystal panel PNL. The illumination device BL has a fluorescent tube CFL, is disposed on the back surface of the fluorescent tube CFL, and is derived from the fluorescent device. The reflection member REF which diffuses and reflects the white light of the light pipe CFL, and the diffusion plate DEP which is disposed on the front surface of the fluorescent tube CFL and diffuses and penetrates the white light from the fluorescent tube cfl. [Problem to be Solved by the Invention] The above-described liquid crystal display device has a thermal expansion due to heat generation of the fluorescent tube. The thermal expansion of the face closer to the fluorescent tube is greater than the thermal expansion of the surface farther from the fluorescent tube, resulting in diffusion and deformation. - Once the diffusion plate is convexly deformed toward the glory tube side, in order to reduce the thickness of the device, the height of the reflective member to the calender tube is made: 2: When suppressing the minimum diffusion distance of the bright spot, The diffusion distance is smaller than Π:?, so the light-emitting portion of the light-emitting tube is regarded as a defect of bright spots. In particular, because the minimum diffusion distance is met, the above-mentioned height dimension is smaller, and the deviation of the diffusion distance corresponding to the deviation of the diffusion distance of 132165.doc 200916917 is such that even if the diffusion plate has only a slight protrusion to the glory side, it is deformed. It is impossible to ensure the uniformity of the light emitted from the light pipe, and the light-emitting portion of the light pipe is regarded as a bright spot. For example, when the minimum diffusion distance is 10 coffee or less, when the diffusion distance of about 2 〇 is set to 10 mm or less, the diffusion plate will be convex toward the fluorescent tube side, and P will generate only a strain of 1 mm or less. From the fluorescent tube
之出射光的均一性’而產生螢光管之發光部被視作為亮斑 的缺陷。 因此本發明之目的在於提供一種即使將照明裝置薄型 化’亦可顯示亮斑受到抑制之良好圖像的液晶顯示裝置。 [解決問題之技術手段] 本發明之液晶顯示裝置係包含有顯示圖像之液晶面板, 及配置於該液晶面板之背面且向上述液晶面板射出光(白 色光)之照明裝置;該照明裝置包含有:至少丨個線狀光源 (螢光官),反射部件(反射板),係配置於該線狀光源之背 面’且將源自上述線狀光源之光(白色光)加以擴散並反 射;及擴散穿透部件(擴散板)’係配置於上述線狀光源之 正面’且將源自上述線狀光源之光(白色光)加以擴散並穿 透;且該液晶顯示裝置具備複數個固定於上述反射部件之 兩端部附近’並支撐上述擴散穿透部件第1支撐部件(下框 之外框及上側模製件)’且,至少將i個第2支撐部件(銷模 製件)固定於上述反射部件,以支撐上述擴散穿透部件之 中心附近。 132165.doc 200916917 其結果’因熱應變應變而使擴散穿透部件(擴散板)最為 變形之擴散穿透部件之中央附近,藉由用第2支撐部件(銷 模製件)加以支撐,而將擴散穿透部件之中央附近的擴散 距離維持於第2支撐部件的高度尺寸,故可抑制擴散板向 擴散距離縮短之方向變形。 [發明之效果] 根據本發明,可提供一種即使將液晶顯示裝置薄型化, 亦可顯示良好圖像的液晶顯示裝置。 【實施方式】 以下’說明本發明之第1〜4實施形態的液晶顯示裝置。 <第1實施形態之液晶顯示裝置> 首先,用圖1〜圖3說明本發明第1實施形態之液晶顯示裝 置。圖1係顯示本發明第丨實施形態之液晶顯示裝置之構造 的分解圖;圖2係顯示本發明第丨實施形態之液晶顯示裝置 之構造的剖面圖;圖3係顯示本發明第丨實施形態之液晶顯 不裝置之構造的背面圖(A_A剖面圖)。以下,將第i實施形 態之液晶顯示裝置稱為本實施形態之液晶顯示裝置(而進 行說明。 百先說明本實施形態之液晶顯示裝置1的構造。又,本 實施形態之液晶顯示裝置i係如圖3,其特徵為在u個銷模 製件10内’係以7個銷模製件1〇a支禮擴散板n之中央附近 方式’而將銷模製件1〇配置於&射板5。&,支撐中央附 近之銷模製件l0a的個數可為6個以下,亦可為_以上。 本實施形匕、之液晶顯示裝置丨,包含有係線狀光源且可 132165.doc 200916917 照射均-之白色光的6個螢光f2,及顯示圖像之液晶面板 3,且源自各營光管2之白色光係作為背光而入射於液晶面 板3又’本實施形態之液晶顯示裝置^中,螢光管2之個 數為6個,然而亦可為5個以下或7個以上。 螢光管2係藉由固定於貼著在下框4之反射板5上之管座6 加以保持,而固定於距反射板5特定之高度的位置。且, 於反射板5固;t有下側模製件7,於該下側模製件7固定有 電極座8,該電極座8係保持位在螢光管2之兩端的電極 以。又,藉由以覆蓋下側模製件7方式而設置之上側模製 件9’與固定於反射板個銷模製件1(),擴散糾係加 以固定於距離反射板5有特定高度之位置。 於11個銷模製件10内,7個銷模製件1〇a係以支撐擴散板 11之中央附近方式而固;t於反射板5。且於擴散板u貼著 有3片光學板12。又,光學板12可為2片以下,亦可為4片 以上。再者,擴散板U係挾於上側模製件9與中間框丨3之 間而予以固定。 液晶面板3嵌入中間框13之溝13a後,係藉由接著劑等而 固定於中間框13。並且,藉由接著劑等而將上框M固定於 固定有液晶面板3之中間框1 3。 其次說明本實施形態之液晶顯示裝置丨的動作。 藉由反射板5將源自螢光管2之白色光高效率地擴散反射 於上方,進而擴散板U將源自螢光管2之白色光邊加以擴 散且邊穿透,以讓由螢光管2發出之白色光,於反射板5與 擴散板11之間多數次地反覆進行擴散與反射並同時出射, I32165.doc 200916917 而入射於液晶面板3。又,於反射板5與擴散板丨丨之間多數 次地反覆進行擴散與反射並同時出射後,白色光係藉由貼 著於擴散板11之上面的3片光學板12,來控制擴散性與指 向性。 其次說明本實施形態之液晶顯示裝置丨之亮斑的抑制。 以下,將反射板5至擴散板π之距離稱為擴散距離。又, 如上述,由於螢光管2亦固定於距離反射板5有特定之高度The light-emitting portion of the fluorescent tube which is uniform in the emitted light is regarded as a defect of bright spots. SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a liquid crystal display device which can display a good image in which bright spots are suppressed even if the illumination device is made thin. [Means for Solving the Problems] The liquid crystal display device of the present invention includes a liquid crystal panel that displays an image, and an illumination device that is disposed on the back surface of the liquid crystal panel and emits light (white light) to the liquid crystal panel; the illumination device includes There are: at least one linear light source (fluorescent officer), a reflecting member (reflecting plate) disposed on the back side of the linear light source and diffusing and reflecting light (white light) originating from the linear light source; And a diffusion penetrating member (diffusion plate) is disposed on the front surface of the linear light source and diffuses and penetrates light (white light) derived from the linear light source; and the liquid crystal display device has a plurality of fixed The vicinity of both end portions of the reflecting member 'supports the diffusion-transmitting member first supporting member (lower frame outer frame and upper molding)) and fixes at least one second supporting member (pin molded article) The reflecting member is arranged to support the vicinity of the center of the diffusion penetrating member. 132165.doc 200916917 As a result, the vicinity of the center of the diffusion-transparent member which is the most deformed by the diffusion strain member (diffusion plate) due to thermal strain strain is supported by the second support member (pin molded member). Since the diffusion distance in the vicinity of the center of the diffusion penetrating member is maintained at the height of the second supporting member, deformation of the diffusing plate in the direction in which the diffusion distance is shortened can be suppressed. [Effects of the Invention] According to the present invention, it is possible to provide a liquid crystal display device which can display a good image even if the liquid crystal display device is made thinner. [Embodiment] Hereinafter, a liquid crystal display device according to the first to fourth embodiments of the present invention will be described. <Liquid Crystal Display Device of First Embodiment> First, a liquid crystal display device according to a first embodiment of the present invention will be described with reference to Figs. 1 to 3 . 1 is an exploded view showing a structure of a liquid crystal display device according to a third embodiment of the present invention; FIG. 2 is a cross-sectional view showing a structure of a liquid crystal display device according to a third embodiment of the present invention; and FIG. 3 is a view showing a third embodiment of the present invention. Rear view of the structure of the liquid crystal display device (A_A cross-sectional view). Hereinafter, the liquid crystal display device of the first embodiment will be referred to as a liquid crystal display device of the present embodiment. The structure of the liquid crystal display device 1 of the present embodiment will be described. The liquid crystal display device i of the present embodiment is also described. As shown in Fig. 3, it is characterized in that the u-pin moldings 10 are arranged in the vicinity of the center of the seven pin-molded members 1a to the center of the diffusing plate n, and the pin-molded members are disposed in the & The number of the pin moldings 10a in the vicinity of the center may be 6 or less, or may be _ or more. The liquid crystal display device of the present embodiment includes a linear light source and can be 132165.doc 200916917 Six fluorescent lights f2 illuminating the white light, and the liquid crystal panel 3 displaying the image, and the white light from each of the camping tubes 2 is incident on the liquid crystal panel 3 as a backlight. In the liquid crystal display device of the form, the number of the fluorescent tubes 2 is six, but it may be five or less or seven or more. The fluorescent tube 2 is fixed to the reflecting plate 5 attached to the lower frame 4 The stem 6 is held and fixed at a specific height from the reflecting plate 5. And, in reflection The plate 5 is solid; t has a lower molding member 7, and the electrode holder 8 is fixed to the lower molding member 7, and the electrode holder 8 holds the electrodes at both ends of the fluorescent tube 2. The upper side molding member 9' is disposed to cover the lower side molding member 7 and is fixed to the reflection plate pin molding member 1 (), and is diffused and fixed to a position at a certain height from the reflection plate 5. In the pin molding 10, seven pin moldings 1a are fixed in the vicinity of the center of the diffusion plate 11; t is on the reflection plate 5. And three optical plates 12 are attached to the diffusion plate u. The optical plate 12 may be two or less, or may be four or more. Further, the diffusion plate U is fixed between the upper molding member 9 and the intermediate frame 3, and the liquid crystal panel 3 is embedded in the intermediate frame 13. After the groove 13a is fixed to the intermediate frame 13 by an adhesive or the like, the upper frame M is fixed to the intermediate frame 13 to which the liquid crystal panel 3 is fixed by an adhesive or the like. Next, the liquid crystal display of the embodiment will be described. The operation of the device 。. The white light from the fluorescent tube 2 is efficiently diffused and reflected by the reflecting plate 5, and the diffusing plate U is derived from the fluorescent light. The white light side of the 2 is diffused and penetrated so that the white light emitted by the fluorescent tube 2 is repeatedly diffused and reflected between the reflecting plate 5 and the diffusing plate 11 and simultaneously emitted, I32165.doc 200916917 And incident on the liquid crystal panel 3. Further, after being repeatedly diffused and reflected between the reflection plate 5 and the diffusion plate 并 and simultaneously emitted, the white light is passed through the three pieces of optics attached to the upper surface of the diffusion plate 11. The plate 12 is used to control the diffusibility and the directivity. Next, the suppression of the bright spots of the liquid crystal display device of the present embodiment will be described. Hereinafter, the distance between the reflecting plate 5 and the diffusing plate π is referred to as a diffusion distance. The fluorescent tube 2 is also fixed at a specific height from the reflecting plate 5.
的位置,螢光管2與擴散板π之距離亦為一定,故以下將 该距離稱為管上距離。 藉由擴散板11或光學板12之擴散性能,決定可抑制亮斑 之最小擴散距離,若擴散距離為最小擴散距離以上之尺 寸,則可抑制焭斑,故將液晶顯示裝置薄型化時,有必要 使擴散距離保持於最小擴散距離。因此,藉由使銷模製件 10之高度尺寸符合最小擴散距離,讓t光管2、反射板5、 擴散板11、3片光學板12等構成冬照明裝置薄型化,而使 液晶顯示裝置i薄型化。再者’本實施形態之液晶顯示裝 置1係11個銷模製件H)内,以7個銷模製件i〇a來支擇擴散 板11之中央附近方式’而將銷模製件1〇配置於反射板5。 藉由以銷模製件10a支撐擴散板u之中央附近,可防止 螢光管2發光時,由於擴散板u產生熱膨脹且擴散板η向 勞光管2側突起變形,使得擴散板u之中央附近之擴散距 離小於最小擴散距離。其結果,由於至少可將視聽者對於 亮斑之感度最高的顯示圓像(液晶面板3)之中央附近維持於 最小擴散距離,故本實施形態之液晶顯示裝置可提供 132165.doc 200916917 亮斑受到控制之良好的圖像。 又’於本實施形態之液晶顯示裝置1,係說明丨丨個銷模 製件ίο内,以7個銷模製件10a支撐擴散板η之中央附近的 情形’然而並非限定於此。當然,支撐擴散板丨丨之中央附 近之銷模製件10a的個數為6個以下或8個以上之液晶顯示 裝置’由於可支撐擴散板U之中央附近,故亦可提供亮斑 受到控制之良好的圖像。再者,如圖4,以支撐於擴散板 11之中央附近且較短方向之中心線上之複數個點方式,而 將銷模製件10a並列配置之液晶顯示裝置,亦可提供亮斑 丈到控制之良好的圖像。再者,圖4係以支撐於擴散板i i 之中央附近且較短方向之中心線上之複數個點方式,而將 銷模製件1 0a並列配置之液晶顯示裝置的背面圖。 <第2實施形態之液晶顯示裝置> 其次使用圖5、圖6說明本發明第2實施形態之液晶顯示 裝置。圖5係顯示本發明第2實施形態之液晶顯示裴置之構 造的剖面圖’圖6係顯示本發明第2實施形態之液晶顯示裝 置之構造的背面圖(Β·Β剖面圖)。以下,將第2實施形態之 液晶顯示裝置稱為本實施形態之液晶顯示裝置5〇。 首先說明本實施形態之液晶顯示裝置5〇的構造。又,本 實施形態之液晶顯示裝置50係如同圖6,其特徵為用銷模 製件l〇a支撐擴散板U之中央附近,並且將銷模製件配 置於反射板5,以藉由新的銷模製件1〇b、銷模製件1〇。, 來支撐將銷模製件1 〇a與下框4之外框4b及外框4a之位置分 別略等分的位置。 I32165.doc 200916917 本實施形態之液晶顯示裝置50,係於上述第斤施形態 之液晶顯示裝置1設置新的銷模製件1〇b、銷模製件 者’具體上,係於將支擇擴散板Μ中央附近之銷模製件 l〇a的配置位置、與下框4之外框仆及外框钝之位置分別略 等分的位置’設置新的銷模製件1〇b、銷模製件⑽者。藉 由設置新的銷模製件H)b、鎖模製件1〇e,可跨擴散板⑽ 體而將擴散距離維持於銷模製件1G之尺寸,即最小擴散距 離,=可提供跨液晶顯示裝置5G之顯示畫面(液晶面板收 體’亮斑受到控制的良好圖像。 又,相較於上述糾實施形態之液晶顯示裝置i,銷模製 件10之數量係增加,藉此,即使因外力作用等而產生預期 以外之機械應力應變時’亦可將擴散距離之變動抑制於最 小限度’故可維持極良好的顯示品質。The position of the fluorescent tube 2 and the diffusion plate π is also constant, so the distance is referred to as the distance above the tube. The minimum diffusion distance of the bright spot can be suppressed by the diffusion performance of the diffusion plate 11 or the optical plate 12, and if the diffusion distance is equal to or larger than the minimum diffusion distance, ecchymoses can be suppressed, so when the liquid crystal display device is made thinner, It is necessary to keep the diffusion distance at the minimum diffusion distance. Therefore, by making the height dimension of the pin molding 10 conform to the minimum diffusion distance, the t-light tube 2, the reflection plate 5, the diffusion plate 11, and the three optical plates 12 are made thinner, and the liquid crystal display device is made thinner. i is thin. Further, in the liquid crystal display device 1 of the present embodiment, in the 11 pin molded parts H, the vicinity of the center of the diffusion plate 11 is selected by the seven pin molded parts i〇a, and the pin molded part 1 is used. The crucible is disposed on the reflector 5. By supporting the vicinity of the center of the diffusion plate u with the pin molding 10a, it is possible to prevent the thermal expansion of the diffusion plate u when the fluorescent tube 2 emits light, and the diffusion plate η is deformed toward the side of the light pipe 2 so that the center of the diffusion plate u The nearby diffusion distance is less than the minimum diffusion distance. As a result, since at least the vicinity of the center of the display circular image (liquid crystal panel 3) having the highest sensitivity to the bright spot can be maintained at the minimum diffusion distance, the liquid crystal display device of the present embodiment can provide 132165.doc 200916917 Control the good image. Further, in the liquid crystal display device 1 of the present embodiment, the case where the vicinity of the center of the diffusion plate η is supported by the seven pin moldings 10a is described in the pin moldings ί, but the present invention is not limited thereto. Of course, the number of the pin moldings 10a supporting the vicinity of the center of the diffusion plate 为 is six or less or eight or more liquid crystal display devices'. Since the center of the diffusion plate U can be supported, the bright spots can be controlled. Good image. Furthermore, as shown in FIG. 4, the liquid crystal display device in which the pin moldings 10a are arranged side by side in a plurality of dots supported on the center line in the vicinity of the center of the diffusion plate 11 and in the shorter direction can also provide a bright spot. Control the good image. Further, Fig. 4 is a rear view of the liquid crystal display device in which the pin moldings 10a are arranged in parallel by a plurality of dots supported on the center line in the vicinity of the center of the diffusion plate i i and in the shorter direction. <Liquid Crystal Display Device According to Second Embodiment> Next, a liquid crystal display device according to a second embodiment of the present invention will be described with reference to Figs. 5 and 6 . Fig. 5 is a cross-sectional view showing the structure of a liquid crystal display device according to a second embodiment of the present invention. Fig. 6 is a rear view (a cross-sectional view showing a structure of a liquid crystal display device according to a second embodiment of the present invention). Hereinafter, the liquid crystal display device of the second embodiment will be referred to as a liquid crystal display device 5 of the present embodiment. First, the structure of the liquid crystal display device 5A of the present embodiment will be described. Further, the liquid crystal display device 50 of the present embodiment is similar to that of FIG. 6, and is characterized in that the pin molding member 10a supports the vicinity of the center of the diffusion plate U, and the pin molding member is disposed on the reflection plate 5 to be replaced by a new one. The pin molded part 1〇b and the pin molded part 1〇. To support the position where the pin molding 1 〇a and the outer frame 4b and the outer frame 4a of the lower frame 4 are equally divided. I32165.doc 200916917 In the liquid crystal display device 50 of the present embodiment, the liquid crystal display device 1 of the above-described embodiment is provided with a new pin-molded article 1b and a pin-molded article. The position of the pin molded part l〇a near the center of the diffuser plate, and the position of the outer frame of the lower frame 4 and the position of the outer frame are slightly equally divided. 'Set new pin molded parts 1〇b, pin Molded parts (10). By providing a new pin molded part H)b and a mold-locking part 1〇e, the diffusion distance can be maintained across the size of the pin-molded part 1G across the diffusion plate (10) body, that is, the minimum diffusion distance, = can provide a cross The display screen of the liquid crystal display device 5G (the liquid crystal panel receives a good image in which the bright spot is controlled. Further, the number of the pin molded articles 10 is increased compared to the liquid crystal display device i of the above-described correction embodiment, whereby Even when mechanical stress strain other than expected is generated due to an external force or the like, the variation in the diffusion distance can be minimized, so that excellent display quality can be maintained.
j再者’於本實施形態之液晶顯示裝置5G,係說明支撐擴 放板11之中央附近之銷模製件1 〇a、配置於將銷模製件丨 之配置位置與下框4之外框4b及外框4a之位置分別略等分 之位置上的銷模製件10b、銷模製件1〇c外,亦說明包含有 鎖模製件1()之情形,然而並非限定於此。即使僅設置銷模 製件l〇a、銷模製件10b、銷模製件1〇c,同樣地亦可提供 跨液晶顯示裝置之顯示畫面(液晶面板3)全體而無亮斑的良 好圖像。 者如圖7所示,除上述鎖模製件1 〇 a、銷模製件 銷模製件1 0c外,以支撐擴散板丨〗之中央附近且較短 方向之中心線上之複數個點方式,而將銷模製件l〇a並列 I32165.doc 200916917 配置之情形,亦可提供跨液晶顯示裝置之顯示畫面(液晶 面板3)全體而無亮斑的良好圖像。又,圖7係除上述鎖模 製件i〇a、銷模製件10b、銷模製件1〇c外,以支撐擴散板 11之中央附近且較短方向之中心線上之複數個點方式,而 將銷模製件10a並列配置之液晶顯示裝置的背面圖。 <第3實施形態之液晶顯示裝置> • 以下,用圖8、圖9說明本發明第3實施形態之液晶顯示 裝置。圖8係顯示本發明第3實施形態之液晶顯示裝置之構 〇 造的剖面圖,圖9係顯示本發明第3實施形態之液晶顯示裝 置中之上側模製件9之形狀圖。以下,將第3實施形態之液 晶顯示裝置稱為本實施形態之液晶顯示裝置8〇。 首先說明本實施形態之液晶顯示裝置8〇之構造。本實施 形態之液晶顯示裝置80於下記(1)〜(7)之點,係與第1實施 形態之液晶顯示裝置1共通。 (1) 具有係線狀忠源且可照射均一白色光的螢光管2, r , 及可顯不圖像之液晶面板3,且源自螢光管2之白色光係作 為背光而入射於液晶面板3。 (2) 螢光管2係藉由固定於貼著在下框4之反射板5上的 管座6加以保持,藉此而固定於距反射板5有特定之高度的 位置。 (3) 於下框4固定有下側模製件7,於該下側模製件7固 定有電極座8,該電極座8係保持位在螢光管2之兩端的電 極2a。 (4) 擴政板11係藉由以覆蓋下側模製件7方式而設置之 I32165.doc 13 200916917 上側杈製件9,與固定於反射板5且有最小擴散距離之高度 尺寸的複數個銷模製件1〇,而固定於距離反射板5有特定 南度之位置。 (5) 於擴散板11貼著有3片光學板12。 (6) 擴散板11係挾於上側模製件9與中間框丨3之間。 (7) 固定有液晶面板3之中間框13上係固定有上框“。 上述(1)〜(7)以外,本實施形態之液晶顯示裝置8〇並構造 為如下述,即,由於從反射板5至擴散板11之距離(高度)係 越靠近擴散板11之中央部越增大,故,如圖9,令上側模 製件9中與擴散板11的接觸面9a傾斜3〜5度(以越靠近端部 越降下之方式傾斜),並且將擴散板押壓部件8丨之—端固 疋於擴散板11之端部附近,將另一端固定於中間框13之端 邛附近。根據該構造,即使由於螢光管2之發光而使擴散 板11發熱,藉由擴散板押壓部件8丨來控制擴散板u之端 部,亦可防止擴散板1丨發生熱變形而向螢光管2側凸起變 形,故,特別是可將下框4之中央附近的擴散距離維持於 最小擴散距離以上。 其結果,由☆至少可將視聽者相對於亮斑之感度為最高 的顯示圖像(液晶面板3 )之中央附近維持於最小擴散距離, 故本實施形態之液晶顯示裝置8〇可提供亮斑受到抑制之良 好的圖像。 々 又’於本實施形態之液晶顯示裝置8〇,純明使上側模 製件9中與擴散板n的接觸面知傾斜的情形,然而不限定 於此。例如圖1〇所*,即使在上側模製件9,十與擴散板η I32165.doc -14· 200916917 的接觸面9、賦與階差,並且用擴散板押壓部件81控制擴散 板11之端。卩附近’同樣係可提供亮斑受到抑制之良好的圖 像。圖10係顯示與擴散板之接觸面有階差之上側模製件的 形狀圖。又,圖1〇所載之上側模製件9,之接觸面9,a,係以 越靠近端部越降低方式而傾斜,然而亦可不使之傾斜。 <第4實施形態之液晶顯示裝置> 以下用圖11說明本發明第4實施形態之液晶顯示裝置。 圖11係顯示第4實施形態之液晶顯示裝置之構造的剖面 圖。以下,將第4實施形態之液晶顯示裝置稱為本實施形 態的液晶顯示裝置11 0。 首先說明本實施形態之液晶顯示裝置110之構造。本實 施形態之液晶顯示裝置11〇 ’係如第3實施形態之液晶顯示 裝置80而為下述構造’ #,由於從反射板5至擴散板^之 距離(高度)係越靠近擴散板"之中央部越增大,故即使擴 散板11發生熱變形亦可保持擴散板u之中央部附近的上述 距離(高度)。即,使上側模製件9中與擴散板n的接觸面% 如圖9作相同傾斜,且將擴散板押壓部件“之一端固定於 擴散板11之端部附近,將另一端固定於中間框13之端部附 近。再者,其係如下構造’即,設置支撐擴散板11之中央 附近的銷模製件111 ’並且讓該銷模製件丨丨丨之高度尺寸配 置成稍高於從反射板5至上側模製件9中與擴散板n之接觸 面9a的高度。具體上,銷模製件ln之高度尺寸係配置為 僅大於周邊部之銷模製件〗0之高度尺寸〇卜丨 根據該構造,由於至少可將視聽者相對於亮斑之感度為 132165.doc 200916917 最尚的顯示圖像(液晶面板3)之中央附近維持於最小擴散距 離以上,故本實施形態之液晶顯示裝置】1〇可提供亮斑受 到抑制之良好的圖像。再者,即使由於螢光管2之發光而 使擴散板U«,亦可藉由擴散板押麗冑件81來控制擴散 板η,且高度尺寸稍大於周邊部之銷模製件1〇之銷模製件 ⑴係支揮擴散板u之中央附近,故可防止擴散板u發生 熱變形而向螢光管2側凸起變形。尤其,#由高度尺寸稍 大於周邊部之銷模製㈣之銷模製件⑴來支揮擴散板n 之中央附近’本實施形態之液晶顯示裝置i i㈣、較第3實施 形心之液曰曰顯不裝置’阻止擴散板! i之熱變形的力有所增 大0 ,、、。果即使因外力作用等而產生預期以外之機械應力 應變時’亦可將擴散距離之變動抑㈣最小限度,故本實 施形態之液晶顯示裝置η η π ^ 直110 了維持無凴斑之極良好的顯示 品質。 又 右k、θ同銷模製件111,擴散距離將無法維持一 疋於擴散板11之中央附近擴散距離變得較大,於 11之端部附近擴散距離則減,丨、^ ^ ^ -^ 則減小。故,本實施形態之液晶顯 不裝置11 0中,銷權制, 、 1之高度尺寸係較周邊部之銷模 裝件之馬度尺寸高出0.1〜1·〇ηπη左右。 —般情形下,液S石1 夜日日面板3之面積越大,因擴散板U之埶 所引起的應變也變得赭 … 越大’因此由於擴散板11内在之應力 應k,而使得無銷模製 … I件10之部分發生熱變形且向螢光f 2側凸起變形時,係 蛍“ 而戈有阿度之差,而由於擴散板丨丨之 132165.doc 200916917 原㈣的熱膨脹係數或基板厚、因内在應力應變之大小會 使付應變值I化,故無法得出唯一結果,然而使用擴散板 11之甲基丙烯酸樹脂或環佛雷昂聚合物樹脂等之高耐熱樹 脂時,藉由最大柄主1 π , 取大仍為1.0 mm左右之高度差可得良好之結 果。 <總結> 如f述,第1〜4之實施形態之液晶顯示裝置,係即便因 螢光e之發光而使擴散板發熱,亦可防止擴散板之熱變 形,故可提供亮斑受到抑制之良好的圖像。 另一方面,作為比較例,如圖12、13所示,未包含有支 標擴散板u之中央附近的模製件鎖1〇a,& 一端固定於擴 散板η之端部附近’另一端固定於中間框13之端部附近的 擴散板押壓部件81之液晶顯示裝置12〇,由於無法防止因 螢光官2之發光而產生之擴散板熱變形,故實現短擴 政距離之薄型的液晶顯示裝置時,係會產生螢光管之發光 部被視為亮斑的缺陷。圖12、圖13係分別顯示未包含支撐 擴散板11之中央附近的模製件銷10a,或一端固定於擴散 板11之端部附近,另一端固定於中間框13之端部附近的擴 散板押壓部件8 i之液晶顯示裝置之構造的較長方向剖面 圖,與較短方向剖面圖(x_x剖面圖)。 又,若將上述第1〜4之實施形態之液晶顯示裝置的擴散 板設為附有稜鏡形狀之擴散板,由於稜鏡具有回歸效果, 故藉由使源自螢光管之白色光對應於入射角度並以一定比 例’於附有稜鏡形狀之擴散板反射且入射於下方之反射板 132165.doc 200916917 為擴散光再入射於附有稜鏡之擴散板,即 使擴政距離較短(例如10 mm以下)時,亦可獲得更$的* 【圖式簡單說明】 =二’故可維持極良好的顯示品質。尤其,於:散: a目、上距離為螢光管之直徑的3倍以下時係為有效。 圖1係顯示本發明第丨實施形態之液晶顯示裝置之構造 分解圖。In the liquid crystal display device 5G of the present embodiment, the pin molding 1 〇a supporting the vicinity of the center of the expansion plate 11 and the arrangement position of the pin molding 丨 and the lower frame 4 are described. The position of the frame 4b and the outer frame 4a is slightly equal to the position of the pin molding 10b and the pin molding 1c, respectively, and the case where the mold-locking member 1() is included is not limited thereto. . Even if only the pin molding 10a, the pin molding 10b, and the pin molding 1c are provided, a good picture of the entire display screen (liquid crystal panel 3) of the liquid crystal display device without bright spots can be provided in the same manner. image. As shown in FIG. 7, in addition to the above-mentioned mold-locking member 1 〇a, the pin-molded member pin-molded member 10c, a plurality of points on the center line near the center of the diffuser plate and in the shorter direction are supported. In the case where the pin molded part l〇a is arranged in parallel with I32165.doc 200916917, it is also possible to provide a good image across the display screen (liquid crystal panel 3) of the liquid crystal display device without bright spots. Further, Fig. 7 is a plurality of point manners in addition to the above-described mold-locking member i〇a, the pin-molded member 10b, and the pin-molded member 1〇c to support the center line of the diffusing plate 11 and in the shorter direction. The rear view of the liquid crystal display device in which the pin moldings 10a are arranged side by side. <Liquid Crystal Display Device According to Third Embodiment> A liquid crystal display device according to a third embodiment of the present invention will be described below with reference to Figs. Fig. 8 is a cross-sectional view showing the structure of a liquid crystal display device according to a third embodiment of the present invention, and Fig. 9 is a view showing the shape of the upper molding member 9 in the liquid crystal display device according to the third embodiment of the present invention. Hereinafter, the liquid crystal display device of the third embodiment will be referred to as a liquid crystal display device 8A of the present embodiment. First, the structure of the liquid crystal display device 8 of the present embodiment will be described. The liquid crystal display device 80 of the present embodiment is the same as the liquid crystal display device 1 of the first embodiment in the following points (1) to (7). (1) A fluorescent tube 2, r having a line-like source and capable of illuminating uniform white light, and a liquid crystal panel 3 capable of displaying an image, and the white light from the fluorescent tube 2 is incident as a backlight Liquid crystal panel 3. (2) The fluorescent tube 2 is held by a stem 6 attached to the reflecting plate 5 attached to the lower frame 4, thereby being fixed at a position having a specific height from the reflecting plate 5. (3) The lower molding member 7 is fixed to the lower frame 4, and the electrode holder 8 is fixed to the lower molding member 7, and the electrode holder 8 holds the electrode 2a positioned at both ends of the fluorescent tube 2. (4) The expansion board 11 is a plurality of I32165.doc 13 200916917 upper side members 9 which are provided by covering the lower side molding member 7, and a plurality of height dimensions fixed to the reflection plate 5 and having a minimum diffusion distance. The pin molded part is fixed to a position that is fixed to a certain degree of southness from the reflecting plate 5. (5) Three optical plates 12 are attached to the diffusion plate 11. (6) The diffusion plate 11 is tied between the upper molding member 9 and the intermediate frame 丨3. (7) The upper frame is fixed to the intermediate frame 13 to which the liquid crystal panel 3 is fixed. In addition to the above (1) to (7), the liquid crystal display device 8 of the present embodiment is configured as follows, that is, due to reflection from The distance (height) of the plate 5 to the diffuser 11 increases as the center portion of the diffuser 11 increases. Therefore, as shown in FIG. 9, the contact surface 9a of the upper molding member 9 with the diffuser 11 is inclined by 3 to 5 degrees. (inclining in such a manner as to be lowered toward the end portion), and fixing the end of the diffusion plate pressing member 8 to the vicinity of the end portion of the diffusion plate 11, and fixing the other end to the vicinity of the end portion of the intermediate frame 13. With this configuration, even if the diffusing plate 11 generates heat due to the light emission of the fluorescent tube 2, the end portion of the diffusing plate u is controlled by the diffusing plate pressing member 8A, and the diffusing plate 1 can be prevented from being thermally deformed to be fluorescent. Since the tube 2 side is convexly deformed, in particular, the diffusion distance in the vicinity of the center of the lower frame 4 can be maintained at a minimum diffusion distance or more. As a result, at least the display of the viewer with respect to the brightness of the bright spot can be maximized. The vicinity of the center of the image (liquid crystal panel 3) is maintained at the minimum diffusion distance, so The liquid crystal display device 8 of the embodiment can provide a good image in which bright spots are suppressed. Further, in the liquid crystal display device 8 of the present embodiment, the contact surface of the upper molding member 9 with the diffusion plate n is purely made. The case of the tilt is known, but is not limited thereto. For example, in the upper molding member 9, the contact surface 9 of the diffusion plate η I32165.doc -14· 200916917 is given a step difference, and is used. The diffusion plate pressing member 81 controls the end of the diffusion plate 11. The vicinity of the "the same" can provide a good image in which the bright spot is suppressed. Fig. 10 shows the shape of the upper molding portion having a step difference with the contact surface of the diffusion plate. Further, in Fig. 1A, the contact faces 9, a of the upper molding member 9 are inclined so as to be closer to the end portion, but may not be inclined. [Liquid of the fourth embodiment] Display device> A liquid crystal display device according to a fourth embodiment of the present invention will be described with reference to Fig. 11. Fig. 11 is a cross-sectional view showing the structure of a liquid crystal display device according to a fourth embodiment. Hereinafter, a liquid crystal display device according to a fourth embodiment will be referred to. The liquid crystal display device of the present embodiment is 110 First, the structure of the liquid crystal display device 110 of the present embodiment will be described. The liquid crystal display device 11 of the present embodiment has the following structure as the liquid crystal display device 80 of the third embodiment, since the reflector 5 is diffused from the reflector 5 The distance (height) of the ^ is increased toward the center of the diffusion plate, so that the distance (height) in the vicinity of the central portion of the diffusion plate u can be maintained even if the diffusion plate 11 is thermally deformed. The contact surface % of the member 9 with the diffusion plate n is inclined as shown in Fig. 9, and one end of the diffusion plate pressing member is fixed near the end of the diffusion plate 11, and the other end is fixed to the end of the intermediate frame 13. nearby. Further, it is configured such that the pin molding 111' near the center of the support diffusion plate 11 is provided and the height dimension of the pin molding is set to be slightly higher than that from the reflection plate 5 to the upper side mold. The height of the contact surface 9a of the workpiece 9 with the diffusion plate n. Specifically, the height dimension of the pin molding part ln is configured to be only larger than the height dimension of the pin molding part of the peripheral portion. According to the configuration, since the sensitivity of at least the viewer relative to the bright spot is 132165. Doc 200916917 The vicinity of the center of the most popular display image (liquid crystal panel 3) is maintained at a minimum diffusion distance or more. Therefore, the liquid crystal display device of the present embodiment can provide a good image in which bright spots are suppressed. Furthermore, even if the diffusion plate U« is caused by the light emission of the fluorescent tube 2, the diffusion plate η can be controlled by the diffusion plate yoke member 81, and the height dimension is slightly larger than the pin molded part of the peripheral portion. The pin molded article (1) is in the vicinity of the center of the diffusing plate u, so that the diffusing plate u can be prevented from being thermally deformed and convexly deformed toward the side of the fluorescent tube 2. In particular, the liquid crystal display device i i (four) of the present embodiment is supported by the pin molded article (1) having a height dimension slightly larger than the pin portion of the peripheral portion (4), and the liquid crystal display device of the third embodiment is formed.曰 不 装置 装置 装置 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止 防止If the mechanical stress strain is not generated by an external force or the like, the variation of the diffusion distance can be minimized. Therefore, the liquid crystal display device of the present embodiment η η π ^ straight 110 maintains excellent plaque-free Display quality. Further, the right k and θ are the same as the molded part 111, and the diffusion distance cannot be maintained. The diffusion distance near the center of the diffusion plate 11 becomes larger, and the diffusion distance near the end of the 11 is reduced, 丨, ^ ^ ^ -^ Then decrease. Therefore, in the liquid crystal display device 110 of the present embodiment, the height dimension of 1 is higher than the horse size of the pin module of the peripheral portion by 0.1 to 1·〇ηπη. In general, the area of the liquid S-stone 1 day and night panel 3 is larger, and the strain caused by the enthalpy of the diffusion plate U also becomes 赭... the larger the value, so that the stress inherent in the diffusion plate 11 should be k. No-pin molding... When the part of the 10 piece is thermally deformed and is convexly deformed toward the fluorescent f 2 side, the system is 蛍" and the difference is the degree of the degree, and the diffusion plate is 132165.doc 200916917 original (four) The coefficient of thermal expansion or the thickness of the substrate, the magnitude of the internal stress and strain will cause the strain value to be I, so that the only result cannot be obtained. However, the high heat resistant resin such as the methacrylic resin or the ring-shaped polymer resin of the diffusion plate 11 is used. In the case of the maximum shank main 1 π , a height difference of about 1.0 mm is obtained, and a good result can be obtained. <Summary> As described in the above, the liquid crystal display device of the first to fourth embodiments is The light emitted from the fluorescent light e causes the diffusion plate to generate heat, and the thermal deformation of the diffusion plate can be prevented. Therefore, it is possible to provide a good image in which bright spots are suppressed. On the other hand, as a comparative example, as shown in FIGS. 12 and 13, Molded part lock 1〇a near the center of the branch diffusion plate u The liquid crystal display device 12 of the diffusion plate pressing member 81 whose one end is fixed to the vicinity of the end portion of the diffusion plate η and is fixed to the vicinity of the end portion of the intermediate frame 13 at the other end cannot be prevented from being generated by the illumination of the fluorescent member 2 Since the diffusion plate is thermally deformed, when a thin liquid crystal display device having a short expansion distance is realized, the light-emitting portion of the fluorescent tube is regarded as a defect of bright spots. FIGS. 12 and 13 respectively show that the diffusion plate is not included. The molded article pin 10a near the center of the 11 or the structure of the liquid crystal display device in which the one end is fixed to the vicinity of the end portion of the diffusion plate 11 and the other end is fixed to the vicinity of the end portion of the intermediate frame 13 In the long-term cross-sectional view and the cross-sectional view in the shorter direction (x_x cross-sectional view), the diffusing plate of the liquid crystal display device of the first to fourth embodiments is a diffusing plate having a meandering shape. It has a regressive effect, so that the white light from the fluorescent tube corresponds to the incident angle and is reflected in a certain proportion of the diffusing plate attached to the crucible shape and is incident on the lower reflecting plate 132165.doc 200916917 as the diffused light. Shot on a diffuser plate with a cymbal, even if the expansion distance is short (for example, 10 mm or less), you can get more $* [Simple description] = 2', so you can maintain excellent display quality. It is effective to use a liquid crystal display device according to a third embodiment of the present invention. Fig. 1 is an exploded perspective view showing a liquid crystal display device according to a third embodiment of the present invention.
圖2係顯示本發明第丨實施形態之液晶顯示裝置之構造的 剖面圖。 圖3係顯示本發明第丨實施形態之液晶顯示裝置之構造的 背面圖(A-A剖面圖)。 圖4係以支撐擴散板之中心附近且較短方向之中心線上 之複數個點方式’而將銷模製件並列配置之液晶顯示裝置 的背面圖。 圖5係顯示本發明第2實施形態之液晶顯示裝置之構造的 剖面圖。 圖ό係顯示本發明第2實施形態之液晶顯示裝置之構造的 背面圖(Β-Β剖面圖)。 圖7係以支撐擴散板之中心附近且較短方向之中心線上 之複數個點方式,而將銷模製件並列配置之液晶顯示裝置 的背面圖。 圊8係顯示本發明第3實施形態之液晶顯示裝置之構造的 剖面圖。 圖9係顯示本發明第3實施形態之液晶顯示裝置之上側模 132165.doc •18· 200916917 製件之形狀圖。 圖10係顯示與擴散板之接觸面具有階差之上側模製件的 形狀圖。 圖11係顯示本發明坌4 I。, 货乃第4實施形態之液晶顯示裝置之構造 的剖面圖。 圖12係顯示未包含有.措媳私此 有支撐擴散板之中央附近的模製件 銷,或一端固定於擴散板之 柩夕*山加 私p附近’另一端固定於中間 之知。P附近的擴散板押壓 較長方向剖面圖。 件之液“員不裝置之構造的 圖13係顯示未包含有支撐 銷,戋—被㈤― 八月板之中央附近的模製件 次端固定於擴散板之端 ㈣杈1件 框之端部附近的擴散板押璧部侔近’另—端固定於中間 較短方向剖面圖(χ_χ剖面圖)。^晶顯示m構造的 【主要元件符號說明】 2 液晶顯示裝置 螢光管 2a 電極 3 液晶面板 4 下框 4a 外框 4b 外框 5 反射板 6 管座 7 下側模製件 132165.doc 200916917 8 電極座 9.9, 上側模製件 9a、9'a 接觸面 10 銷模製件 10a 銷模製件 10b 銷模製件 10c 銷模製件 11 擴散板 12 光學板 13 中間框 13a 溝 14 上框 50 液晶顯示裝置 80 液晶顯示裝置 81 擴散板押壓部件 110 液晶顯示裝置 111 銷模製件 120 液晶顯示裝置 BL 照明裝置 CFL 螢光管 DEP 擴散板 PNL 液晶面板 REF 反射部件 132165.doc -20-Fig. 2 is a cross-sectional view showing the structure of a liquid crystal display device of a third embodiment of the present invention. Fig. 3 is a rear elevational view (A-A cross-sectional view) showing the structure of a liquid crystal display device according to a second embodiment of the present invention. Fig. 4 is a rear elevational view of the liquid crystal display device in which the pin moldings are arranged in parallel at a plurality of dot patterns supporting the vicinity of the center of the diffusion plate and in the shorter direction. Fig. 5 is a cross-sectional view showing the structure of a liquid crystal display device according to a second embodiment of the present invention. The rear view (the cross-sectional view of the Β-Β) of the structure of the liquid crystal display device of the second embodiment of the present invention is shown. Fig. 7 is a rear view of the liquid crystal display device in which the pin moldings are arranged side by side in a plurality of dots supporting the vicinity of the center of the diffusion plate and in the shorter direction.圊8 is a cross-sectional view showing the structure of a liquid crystal display device according to a third embodiment of the present invention. Fig. 9 is a view showing the shape of the upper mold 132165.doc • 18· 200916917 of the liquid crystal display device according to the third embodiment of the present invention. Fig. 10 is a view showing the shape of the upper molding having a step difference with the contact surface of the diffusion plate. Figure 11 shows the 坌4 I of the present invention. The product is a cross-sectional view showing the structure of the liquid crystal display device of the fourth embodiment. Fig. 12 is a view showing a molded article pin which is not included in the vicinity of the center of the supporting diffusing plate, or a pin which is fixed at one end to the vicinity of the ridge and the other end is fixed in the middle. The diffusion plate near P is pressed in the longer direction. Figure 13 of the structure of the device is not included in the support pin, and the secondary end of the molded part near the center of the (5)-August plate is fixed to the end of the diffuser plate (4) at the end of the frame The diffuser plate near the part is close to the 'other end' is fixed in the middle short-term cross-sectional view (χ_χ cross-sectional view). ^The crystal display m structure [main component symbol description] 2 liquid crystal display device fluorescent tube 2a electrode 3 LCD panel 4 lower frame 4a outer frame 4b outer frame 5 reflecting plate 6 socket 7 lower molding 132165.doc 200916917 8 electrode holder 9.9, upper molding 9a, 9'a contact surface 10 pin molding 10a pin Molding member 10b Pin molding 10c Pin molding 11 Diffuser 12 Optical plate 13 Intermediate frame 13a Groove 14 Upper frame 50 Liquid crystal display device 80 Liquid crystal display device 81 Diffuser plate pressing member 110 Liquid crystal display device 111 Pin molded part 120 Liquid crystal display device BL Illumination device CFL Fluorescent tube DEP diffusion plate PNL LCD panel REF Reflective part 132165.doc -20-